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1. LSD1 inhibition circumvents glucocorticoid-induced muscle wasting of male mice

Author

Qingshuang Cai, Rajesh Sahu, Vanessa Ueberschlag-Pitiot, Sirine Souali-Crespo, Céline Charvet, Ilyes Silem, Félicie Cottard, Tao Ye, Fatima Taleb, Eric Metzger, Roland Schuele, Isabelle M. L. Billas, Gilles Laverny, Daniel Metzger, and Delphine Duteil

Subjects
Science
Abstract

Abstract Synthetic glucocorticoids (GC), such as dexamethasone, are extensively used to treat chronic inflammation and autoimmune disorders. However, long-term treatments are limited by various side effects, including muscle atrophy. GC activities are mediated by the glucocorticoid receptor (GR), that regulates target gene expression in various tissues in association with cell-specific co-regulators. Here we show that GR and the lysine-specific demethylase 1 (LSD1) interact in myofibers of male mice, and that LSD1 connects GR-bound enhancers with NRF1-associated promoters to stimulate target gene expression. In addition, we unravel that LSD1 demethylase activity is required for triggering starvation- and dexamethasone-induced skeletal muscle proteolysis in collaboration with GR. Importantly, inhibition of LSD1 circumvents muscle wasting induced by pharmacological levels of dexamethasone, without affecting their anti-inflammatory activities. Thus, our findings provide mechanistic insights into the muscle-specific GC activities, and highlight the therapeutic potential of targeting GR co-regulators to limit corticotherapy-induced side effects.

Published
2024
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2. Androgen receptor coordinates muscle metabolic and contractile functions

Author

Kamar Ghaibour, Mélanie Schuh, Sirine Souali‐Crespo, Céline Chambon, Anouk Charlot, Joe Rizk, Daniela Rovito, Anna‐Isavella Rerra, Qingshuang Cai, Nadia Messaddeq, Joffrey Zoll, Delphine Duteil, and Daniel Metzger

Subjects
androgen receptor, genomics, metabolism, skeletal muscle, type 2 diabetes, Diseases of the musculoskeletal system, RC925-935, Human anatomy, QM1-695
Abstract

Abstract Background Androgens are anabolic steroid hormones that exert their function by binding to the androgen receptor (AR). We have previously established that AR deficiency in limb muscles impairs sarcomere myofibrillar organization and decreases muscle strength in male mice. However, despite numerous studies performed in men and rodents, the signalling pathways controlled by androgens via their receptor in skeletal muscles remain poorly understood. Methods Male ARskm−/y (n = 7–12) and female ARskm−/− mice (n = 9), in which AR is selectively ablated in myofibres of musculoskeletal tissue, and male AR(i)skm−/y, in which AR is selectively ablated in post‐mitotic skeletal muscle myofibres (n = 6), were generated. Longitudinal monitoring of body weight, blood glucose, insulin, lipids and lipoproteins was performed, alongside metabolomic analyses. Glucose metabolism was evaluated in C2C12 cells treated with 5α‐dihydrotestosterone (DHT) and the anti‐androgen flutamide (n = 6). Histological analyses on macroscopic and ultrastructural levels of longitudinal and transversal muscle sections were conducted. The transcriptome of gastrocnemius muscles from control and ARskm−/y mice was analysed at the age of 9 weeks (P

Published
2023
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3. Hypoxia‐inducible factor 1A inhibition overcomes castration resistance of prostate tumors

Author

Julie Terzic, Mohamed A Abu el Maaty, Régis Lutzing, Alexandre Vincent, Rana El Bizri, Matthieu Jung, Céline Keime, and Daniel Metzger

Subjects
castration‐resistant prostate cancer, genetically‐engineered mice, HIF1A, PTEN, single‐cell RNA sequencing, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract Androgen deprivation therapy (ADT) is a cornerstone of prostate cancer (PCa) management. Although tumors initially regress, many progress to a hormone‐independent state termed castration‐resistant PCa (CRPC), for which treatment options are limited. We here report that the major luminal cell population in tumors of Pten(i)pe−/− mice, generated by luminal epithelial cell‐specific deletion of the tumor suppressor PTEN after puberty, is castration‐resistant and that the expression of inflammation and stemness markers is enhanced in persistent luminal cells. In addition, hypoxia‐inducible factor 1 (HIF1) signaling, which we have previously demonstrated to be induced in luminal cells of Pten(i)pe−/− mice and to promote malignant progression, is further activated. Importantly, we show that genetic and pharmacological inhibition of HIF1A sensitizes Pten‐deficient prostatic tumors to castration and provides durable therapeutic responses. Furthermore, HIF1A inhibition induces apoptotic signaling in human CRPC cell lines. Therefore, our data demonstrate that HIF1A in prostatic tumor cells is a critical factor that enables their survival after ADT, and identify it as a target for CRPC management.

Published
2023
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4. TRPC3 shapes the ER-mitochondria Ca2+ transfer characterizing tumour-promoting senescence

Author

Valerio Farfariello, Dmitri V. Gordienko, Lina Mesilmany, Yasmine Touil, Emmanuelle Germain, Ingrid Fliniaux, Emilie Desruelles, Dimitra Gkika, Morad Roudbaraki, George Shapovalov, Lucile Noyer, Mathilde Lebas, Laurent Allart, Nathalie Zienthal-Gelus, Oksana Iamshanova, Franck Bonardi, Martin Figeac, William Laine, Jerome Kluza, Philippe Marchetti, Bruno Quesnel, Daniel Metzger, David Bernard, Jan B. Parys, Loïc Lemonnier, and Natalia Prevarskaya

Subjects
Science
Abstract

Mitochondrial Ca2+ homeostasis is reported to influence cellular senescence. Here the authors show that TRPC3 limits senescence by inhibiting IP3R-mediated Ca2+ release and ER mitochondria Ca2+ transfer and that the downregulation of TRPC3 in stromal cells affects SASP production and tumour progression.

Published
2022
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5. Using measures of metabolic flux to align screening and clinical development: Avoiding pitfalls to enable translational studies

Author

Santhosh Satapati, Daniel P. Downes, Daniel Metzger, Harish Shankaran, Saswata Talukdar, Yingjiang Zhou, Zhao Ren, Michelle Chen, Yeon-Hee Lim, Nathan G. Hatcher, Xiujuan Wen, Payal R. Sheth, David G. McLaren, and Stephen F. Previs

Subjects
Biochemical flux, Enzyme activity, Mass spectrometry, Isotope tracers, Medicine (General), R5-920, Biotechnology, TP248.13-248.65
Abstract

Screening campaigns, especially those aimed at modulating enzyme activity, often rely on measuring substrate→product conversions. Unfortunately, the presence of endogenous substrates and/or products can limit one's ability to measure conversions. As well, coupled detection systems, often used to facilitate optical readouts, are subject to interference. Stable isotope labeled substrates can overcome background contamination and yield a direct readout of enzyme activity. Not only can isotope kinetic assays enable early screening, but they can also be used to follow hit progression in translational (pre)clinical studies. Herein, we consider a case study surrounding lipid biology to exemplify how metabolic flux analyses can connect stages of drug development, caveats are highlighted to ensure reliable data interpretations. For example, when measuring enzyme activity in early biochemical screening it may be enough to quantify the formation of a labeled product. In contrast, cell-based and in vivo studies must account for variable exposure to a labeled substrate (or precursor) which occurs via tracer dilution and/or isotopic exchange. Strategies are discussed to correct for these complications. We believe that measures of metabolic flux can help connect structure-activity relationships with pharmacodynamic mechanisms of action and determine whether mechanistically differentiated biophysical interactions lead to physiologically relevant outcomes. Adoption of this logic may allow research programs to (i) build a critical bridge between primary screening and (pre)clinical development, (ii) elucidate biology in parallel with screening and (iii) suggest a strategy aimed at in vivo biomarker development.

Published
2022
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6. Cytosolic sequestration of the vitamin D receptor as a therapeutic option for vitamin D-induced hypercalcemia

Author

Daniela Rovito, Anna Y. Belorusova, Sandra Chalhoub, Anna-Isavella Rerra, Elvire Guiot, Arnaud Molin, Agnès Linglart, Natacha Rochel, Gilles Laverny, and Daniel Metzger

Subjects
Science
Abstract

Current therapeutic strategies for vitamin D-induced hypercalcemia are poorly efficient. Here the authors identify a new interaction between the vitamin D receptor (VDR) and WBP4 controlling the subcellular localization of VDR and show that ZK168281, a VDR antagonist, enhances the interaction between VDR and WBP4 blunting VDR signalling and normalizing calcium levels in vitamin D-intoxicated mice.

Published
2020
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7. In vivo RyR1 reduction in muscle triggers a core-like myopathy

Author

Laurent Pelletier, Anne Petiot, Julie Brocard, Benoit Giannesini, Diane Giovannini, Colline Sanchez, Lauriane Travard, Mathilde Chivet, Mathilde Beaufils, Candice Kutchukian, David Bendahan, Daniel Metzger, Clara Franzini Armstrong, Norma B. Romero, John Rendu, Vincent Jacquemond, Julien Fauré, and Isabelle Marty

Subjects
Ryanodine receptor, Calcium, Skeletal muscle, Excitation–contraction coupling, Congenital myopathies, Central core disease, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Mutations in the RYR1 gene, encoding the skeletal muscle calcium channel RyR1, lead to congenital myopathies, through expression of a channel with abnormal permeability and/or in reduced amount, but the direct functional whole organism consequences of exclusive reduction in RyR1 amount have never been studied. We have developed and characterized a mouse model with inducible muscle specific RYR1 deletion. Tamoxifen-induced recombination in the RYR1 gene at adult age resulted in a progressive reduction in the protein amount reaching a stable level of 50% of the initial amount, and was associated with a progressive muscle weakness and atrophy. Measurement of calcium fluxes in isolated muscle fibers demonstrated a reduction in the amplitude of RyR1-related calcium release mirroring the reduction in the protein amount. Alterations in the muscle structure were observed, with fibers atrophy, abnormal mitochondria distribution and membrane remodeling. An increase in the expression level of many proteins was observed, as well as an inhibition of the autophagy process. This model demonstrates that RyR1 reduction is sufficient to recapitulate most features of Central Core Disease, and accordingly similar alterations were observed in muscle biopsies from Dusty Core Disease patients (a subtype of Central Core Disease), pointing to common pathophysiological mechanisms related to RyR1 reduction.

Published
2020
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8. Vitamin D Analogs Bearing C-20 Modifications Stabilize the Agonistic Conformation of Non-Responsive Vitamin D Receptor Variants

Author

Anna Y. Belorusova, Daniela Rovito, Yassmine Chebaro, Stefanie Doms, Lieve Verlinden, Annemieke Verstuyf, Daniel Metzger, Natacha Rochel, and Gilles Laverny

Subjects
structure function relationship, vitamin D, rare diseases, Biology (General), QH301-705.5, Chemistry, QD1-999
Abstract

The Vitamin D receptor (VDR) plays a key role in calcium homeostasis, as well as in cell proliferation and differentiation. Among the large number of VDR ligands that have been developed, we have previously shown that BXL-62 and Gemini-72, two C-20-modified vitamin D analogs are highly potent VDR agonists. In this study, we show that both VDR ligands restore the transcriptional activities of VDR variants unresponsive to the natural ligand and identified in patients with rickets. The elucidated mechanisms of action underlying the activities of these C-20-modified analogs emphasize the mutual adaptation of the ligand and the VDR ligand-binding pocket.

Published
2022
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9. Effects of Bisphosphonate Therapy on Bone Mineral Density in Boys with Duchenne Muscular Dystrophy

Author

Rebecca Ronsley, Nazrul Islam, Mehima Kang, Helen Nadel, Christopher Reilly, Daniel Metzger, Kathryn Selby, and Constadina Panagiotopoulos

Subjects
Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

The objective of this study was to estimate the comparative effectiveness of bisphosphonate therapy on bone mineral density (BMD) in patients with corticosteroid-treated Duchenne muscular dystrophy (DMD). A retrospective, comparative effectiveness study evaluating changes in BMD and fragility fractures in patients with DMD presenting to British Columbia Children’s Hospital from 1989 to 2017 was conducted. Marginal structural generalized estimating equation models weighted by stabilized inverse-probability of treatment weights were used to estimate the comparative effectiveness of therapy on BMD. Of those treated with bisphosphonates (N = 38), 7 (18.4%), 17 (44.7%), and 14 (36.8%) cases were treated with pamidronate, zoledronic acid, or a combination of both, respectively, while 36 cases of DMD were untreated. Mean age of bisphosphonate initiation was 9.2 (SD 2.7) years. Mean fragility fractures declined from 3.5 to 1.0 following bisphosphonate therapy. Compared to the treated group, the untreated group had an additional 0.63-SD decrease (95% confidence interval [CI]: −1.18, −0.08, P = .026) in total BMD and an additional 1.04-SD decrease (95% CI: −1.74, −0.34; P = .004) in the left hip BMD, but the change in lumbar spine BMD (0.15, 95% CI: −0.36, 0.66; P = .57) was not significant. Bisphosphonate therapy may slow the decline in BMD in boys with corticosteroid-treated DMD compared to untreated counterparts. Total number of fragility fractures decreased following bisphosphonate therapy.

Published
2020
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10. Peroxisome proliferator‐activated receptor gamma (PPARγ) regulates lactase expression and activity in the gut

Author

Mathurin Fumery, Silvia Speca, Audrey Langlois, Anne‐Marie Davila, Caroline Dubuquoy, Marta Grauso, Anthony Martin Mena, Martin Figeac, Daniel Metzger, Christel Rousseaux, Jean‐Frederic Colombel, Laurent Dubuquoy, Pierre Desreumaux, and Benjamin Bertin

Subjects
hypolactasia, intestinal epithelial cells, lactase, lactose intolerance, PPARgamma, Medicine (General), R5-920, Genetics, QH426-470
Abstract

Abstract Lactase (LCT) deficiency affects approximately 75% of the world's adult population and may lead to lactose malabsorption and intolerance. Currently, the regulation of LCT gene expression remains poorly known. Peroxisome proliferator activator receptorγ (PPARγ) is a key player in carbohydrate metabolism. While the intestine is essential for carbohydrate digestion and absorption, the role of PPARγ in enterocyte metabolic functions has been poorly investigated. This study aims at characterizing PPARγ target genes involved in intestinal metabolic functions. In microarray analysis, the LCT gene was the most upregulated by PPARγ agonists in Caco‐2 cells. We confirmed that PPARγ agonists were able to increase the expression and activity of LCT both in vitro and in vivo in the proximal small bowel of rodents. The functional response element activated by PPARγ was identified in the promoter of the human LCT gene. PPARγ modulation was able to improve symptoms induced by lactose‐enriched diet in weaned rats. Our results demonstrate that PPARγ regulates LCT expression, and suggest that modulating intestinal PPARγ activity might constitute a new therapeutic strategy for lactose malabsorption.

Published
2017
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11. BRG1-SWI/SNF-dependent regulation of the Wt1 transcriptional landscape mediates epicardial activity during heart development and disease

Author

Joaquim Miguel Vieira, Sara Howard, Cristina Villa del Campo, Sveva Bollini, Karina N. Dubé, Megan Masters, Damien N. Barnette, Mala Rohling, Xin Sun, Laura E. Hankins, Daria Gavriouchkina, Ruth Williams, Daniel Metzger, Pierre Chambon, Tatjana Sauka-Spengler, Benjamin Davies, and Paul R. Riley

Subjects
Science
Abstract

Priming of the adult mouse heart with Tβ4 activates dormant epicardium-derived cells to aid repair of injured myocardium. Here, Vieiraet al. explain this process and show that Tβ4 binds a chromatin remodeller BRG1 and activates Wt1, the key regulator of epicardial epithelial-to-mesenchymal transformation, by altering the epigenetic landscape of the Wt1 locus.

Published
2017
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12. Senescence controls prostatic neoplasia driven by Pten loss

Author

Maxime Parisotto, Elise Grelet, Rana El Bizri, and Daniel Metzger

Subjects
prostate cancer, mouse model, senescence, replicative stress, dna damage, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282
Abstract

We report that Pten (phosphatase and tensin homologue) ablation in prostatic epithelial cells of adult mice promotes cell proliferation to generate prostatic intraepithelial neoplasia. Moreover, our results demonstrate that proliferating Pten-deficient cells undergo replication stress and exhibit a DNA damage response, leading to cell senescence, as seen in oncogene-induced senescence.

Published
2019
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13. Diabetes Worsens Skeletal Muscle Mitochondrial Function, Oxidative Stress, and Apoptosis After Lower-Limb Ischemia-Reperfusion: Implication of the RISK and SAFE Pathways?

Author

Julien Pottecher, Chris Adamopoulos, Anne Lejay, Jamal Bouitbir, Anne-Laure Charles, Alain Meyer, Mervyn Singer, Valerie Wolff, Pierre Diemunsch, Gilles Laverny, Daniel Metzger, and Bernard Geny

Subjects
diabetes, ischemia-reperfusion, peripheral arterial disease, protective kinases, muscles, mitochondria, Physiology, QP1-981
Abstract

Objectives: Diabetic patients respond poorly to revascularization for peripheral arterial disease (PAD) but the underlying mechanisms are not well understood. We aimed to determine whether diabetes worsens ischemia-reperfusion (IR)-induced muscle dysfunction and the involvement of endogenous protective kinases in this process.Materials and Methods: Streptozotocin-induced diabetic and non-diabetic rats were randomized to control or to IR injury (3 h of aortic cross-clamping and 2 h of reperfusion). Mitochondrial respiration, reactive oxygen species (ROS) production, protein levels of superoxide dismutase (SOD2) and endogenous protective kinases (RISK and SAFE pathways) were investigated in rat gastrocnemius, together with upstream (GSK-3β) and downstream (cleaved caspase-3) effectors of apoptosis.Results: Although already impaired when compared to non-diabetic controls at baseline, the decline in mitochondrial respiration after IR was more severe in diabetic rats. In diabetic animals, IR-triggered oxidative stress (increased ROS production and reduced SOD2 levels) and effectors of apoptosis (reduced GSK-3β inactivation and higher cleaved caspase-3 levels) were increased to a higher level than in the non-diabetics. IR had no effect on the RISK pathway in non-diabetics and diabetic rats, but increased STAT 3 only in the latter.Conclusion: Type 1 diabetes worsens IR-induced skeletal muscle injury, endogenous protective pathways not being efficiently stimulated.

Published
2018
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14. A Vitamin D Receptor Selectively Activated by Gemini Analogs Reveals Ligand Dependent and Independent Effects

Author

Tiphaine Huet, Gilles Laverny, Fabrice Ciesielski, Ferdinand Molnár, Thanuja Gali Ramamoorthy, Anna Y. Belorusova, Pierre Antony, Noelle Potier, Daniel Metzger, Dino Moras, and Natacha Rochel

Subjects
Biology (General), QH301-705.5
Abstract

The bioactive form of vitamin D [1,25(OH)2D3] regulates mineral and bone homeostasis and exerts potent anti-inflammatory and antiproliferative properties through binding to the vitamin D receptor (VDR). The 3D structures of the VDR ligand-binding domain with 1,25(OH)2D3 or gemini analogs unveiled the molecular mechanism underlying ligand recognition. On the basis of structure-function correlations, we generated a point-mutated VDR (VDRgem) that is unresponsive to 1,25(OH)2D3, but the activity of which is efficiently induced by the gemini ligands. Moreover, we show that many VDR target genes are repressed by unliganded VDRgem and that mineral ion and bone homeostasis are more impaired in VDRgem mice than in VDR null mice, demonstrating that mutations abolishing VDR ligand binding result in more severe skeletal defects than VDR null mutations. As gemini ligands induce VDRgem transcriptional activity in mice and normalize their serum calcium levels, VDRgem is a powerful tool to further unravel both liganded and unliganded VDR signaling.

Published
2015
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15. Moderate Exercise Allows for shorter Recovery Time in Critical Limb Ischemia

Author

Anne Lejay, Gilles Laverny, Stéphanie Paradis, Anna-Isabel Schlagowski, Anne-Laure Charles, François Singh, Joffrey Zoll, Fabien Thaveau, Evelyne Lonsdorfer, Stéphane Dufour, Fabrice Favret, Valérie Wolff, Daniel Metzger, Nabil Chakfe, and Bernard Geny

Subjects
exercise, ischemia, peripheral arterial disease, mitochondria, muscle, oxidative stress, Physiology, QP1-981
Abstract

Whether and how moderate exercise might allow for accelerated limb recovery in chronic critical limb ischemia (CLI) remains to be determined. Chronic CLI was surgically induced in mice, and the effect of moderate exercise (training five times per week over a 3-week period) was investigated. Tissue damages and functional scores were assessed on the 4th, 6th, 10th, 20th, and 30th day after surgery. Mice were sacrificed 48 h after the last exercise session in order to assess muscle structure, mitochondrial respiration, calcium retention capacity, oxidative stress and transcript levels of genes encoding proteins controlling mitochondrial functions (PGC1α, PGC1β, NRF1) and anti-oxidant defenses markers (SOD1, SOD2, catalase). CLI resulted in tissue damages and impaired functional scores. Mitochondrial respiration and calcium retention capacity were decreased in the ischemic limb of the non-exercised group (Vmax = 7.11 ± 1.14 vs. 9.86 ± 0.86 mmol 02/min/g dw, p < 0.001; CRC = 7.01 ± 0.97 vs. 11.96 ± 0.92 microM/mg dw, p < 0.001, respectively). Moderate exercise reduced tissue damages, improved functional scores, and restored mitochondrial respiration and calcium retention capacity in the ischemic limb (Vmax = 9.75 ± 1.00 vs. 9.82 ± 0.68 mmol 02/min/g dw; CRC = 11.36 ± 1.33 vs. 12.01 ± 1.24 microM/mg dw, respectively). Exercise also enhanced the transcript levels of PGC1α, PGC1β, NRF1, as well as SOD1, SOD2, and catalase. Moderate exercise restores mitochondrial respiration and calcium retention capacity, and it has beneficial functional effects in chronic CLI, likely by stimulating reactive oxygen species-induced biogenesis and anti-oxidant defenses. These data support further development of exercise therapy even in advanced peripheral arterial disease.

Published
2017
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16. Nur77 deletion impairs muscle growth during developmental myogenesis and muscle regeneration in mice.

Author

Omar Cortez-Toledo, Caitlin Schnair, Peer Sangngern, Daniel Metzger, and Lily C Chao

Subjects
Medicine, Science
Abstract

Muscle atrophy is a prevalent condition in illness and aging. Identifying novel pathways that control muscle mass may lead to therapeutic advancement. We previously identified Nur77 as a transcriptional regulator of glycolysis in skeletal muscle. More recently, we showed that Nur77 expression also controls myofiber size in mice. It was unknown, however, whether Nur77's regulation of muscle size begins during developmental myogenesis or only in adulthood. To determine the importance of Nur77 throughout muscle growth, we examined myofiber size at E18.5, 3 weeks postnatal age, and in young adult mice. Using the global Nur77-/- mice, we showed that Nur77 deficiency reduced myofiber size as early as E18.5. The reduction in myofiber size became more pronounced by 3 weeks of age. We observed comparable reduction in myofiber size in young myofiber-specific Nur77-knockout mice. These findings suggest that Nur77's effect on muscle growth is intrinsic to its expression in differentiating myofibers, and not dependent on its expression in myogenic stem cells. To determine the importance of Nur77 expression in muscle accretion in mature mice, we generated an inducible-, muscle-specific, Nur77-deficient mouse model. We demonstrated that tamoxifen-induced deletion of Nur77 in 3-month-old mice reduced myofiber size. This change was accompanied by increased activity of Smad2 and FoxO3, two negative regulators of muscle mass. The role of Nur77 in muscle growth was further elaborated in the cardiotoxin-induced muscle regeneration model. Compared to wildtype mice, regenerated myofibers were smaller in Nur77-/- mice. However, when normalized to saline-injected muscle, the recovery of sarcoplasmic area was comparable between Nur77-/- and wildtype mice. These findings suggest that Nur77 deficiency compromises myofiber growth, but not the regenerative capacity of myogenic progenitor cells. Collectively, the findings presented here demonstrate Nur77 as an important regulator of muscle growth both during prenatal and postnatal myogenesis.

Published
2017
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17. Aging Exacerbates Ischemia-Reperfusion-Induced Mitochondrial Respiration Impairment in Skeletal Muscle

Author

Stéphanie Paradis, Anne-Laure Charles, Isabelle Georg, Fabienne Goupilleau, Alain Meyer, Michel Kindo, Gilles Laverny, Daniel Metzger, and Bernard Geny

Subjects
peripheral arterial disease, ischemia-reperfusion, skeletal muscle, mitochondria, respiration, calcium, oxidative stress, reactive oxygen species, aging, Therapeutics. Pharmacology, RM1-950
Abstract

Cycles of ischemia-reperfusion (IR) that occur during peripheral arterial disease (PAD) are associated with significant morbi-mortality, and aging is an irreversible risk factor of PAD. However, the effects of advanced age on IR-induced skeletal muscle mitochondrial dysfunction are not well known. Young and aged mice were therefore submitted to hindlimb IR (2 h ischemia followed by 2 h reperfusion). Skeletal muscle mitochondrial respiration, calcium retention capacity (CRC) and reactive oxygen species (ROS) production were determined using high resolution respirometry, spectrofluorometry and electronic paramagnetic resonance. IR-induced impairment in mitochondrial respiration was enhanced in old animals (VADP; from 33.0 ± 2.4 to 18.4 ± 3.8 and 32.8 ± 1.3 to 5.9 ± 2.7 pmol/s/mg wet weight; −44.2 ± 11.4% vs. −82.0 ± 8.1%, in young and aged mice, respectively). Baseline CRC was lower in old animals and IR similarly decreased the CRC in both groups (from 11.8 ± 0.9 to 4.6 ± 0.9 and 5.5 ± 0.9 to 2.1 ± 0.3 µmol/mg dry weight; −60.9 ± 7.3 and −60.9 ± 4.6%, in young and aged mice, respectively). Further, IR-induced ROS production tended to be higher in aged mice. In conclusion, aging exacerbated the deleterious effects of IR on skeletal muscle mitochondrial respiration, potentially in relation to an increased oxidative stress.

Published
2019
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18. Brg1 loss attenuates aberrant wnt-signalling and prevents wnt-dependent tumourigenesis in the murine small intestine.

Author

Aliaksei Z Holik, Madeleine Young, Joanna Krzystyniak, Geraint T Williams, Daniel Metzger, Boris Y Shorning, and Alan R Clarke

Subjects
Genetics, QH426-470
Abstract

Tumourigenesis within the intestine is potently driven by deregulation of the Wnt pathway, a process epigenetically regulated by the chromatin remodelling factor Brg1. We aimed to investigate this interdependency in an in vivo setting and assess the viability of Brg1 as a potential therapeutic target. Using a range of transgenic approaches, we deleted Brg1 in the context of Wnt-activated murine small intestinal epithelium. Pan-epithelial loss of Brg1 using VillinCreERT2 and AhCreERT transgenes attenuated expression of Wnt target genes, including a subset of stem cell-specific genes and suppressed Wnt-driven tumourigenesis improving animal survival. A similar increase in survival was observed when Wnt activation and Brg1 loss were restricted to the Lgr5 expressing intestinal stem cell population. We propose a mechanism whereby Brg1 function is required for aberrant Wnt signalling and ultimately for the maintenance of the tumour initiating cell compartment, such that loss of Brg1 in an Apc-deficient context suppresses adenoma formation. Our results highlight potential therapeutic value of targeting Brg1 and serve as a proof of concept that targeting the cells of origin of cancer may be of therapeutic relevance.

Published
2014
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19. Prokineticin receptor 1 as a novel suppressor of preadipocyte proliferation and differentiation to control obesity.

Author

Cécilia Szatkowski, Judith Vallet, Mojdeh Dormishian, Nadia Messaddeq, Phillippe Valet, Mounia Boulberdaa, Daniel Metzger, Pierre Chambon, and Canan G Nebigil

Subjects
Medicine, Science
Abstract

BACKGROUND: Adipocyte renewal from preadipocytes occurs throughout the lifetime and contributes to obesity. To date, little is known about the mechanisms that control preadipocyte proliferation and differentiation. Prokineticin-2 is an angiogenic and anorexigenic hormone that activate two G protein-coupled receptors (GPCRs): PKR1 and PKR2. Prokineticin-2 regulates food intake and energy metabolism via central mechanisms (PKR2). The peripheral effect of prokineticin-2 on adipocytes/preadipocytes has not been studied yet. METHODOLOGY/PRINCIPAL FINDINGS: Since adipocytes and preadipocytes express mainly prokineticin receptor-1 (PKR1), here, we explored the role of PKR1 in adipose tissue expansion, generating PKR1-null (PKR1(-/-)) and adipocyte-specific (PKR1(ad-/-)) mutant mice, and using murine and human preadipocyte cell lines. Both PKR1(-/-) and PKR1(ad-/-) had excessive abdominal adipose tissue, but only PKR1(-/-) mice showed severe obesity and diabetes-like syndrome. PKR1(ad-/-)) mice had increased proliferating preadipocytes and newly formed adipocyte levels, leading to expansion of adipose tissue. Using PKR1-knockdown in 3T3-L1 preadipocytes, we show that PKR1 directly inhibits preadipocyte proliferation and differentiation. These PKR1 cell autonomous actions appear targeted at preadipocyte cell cycle regulatory pathways, through reducing cyclin D, E, cdk2, c-Myc levels. CONCLUSIONS/SIGNIFICANCE: These results suggest PKR1 to be a crucial player in the preadipocyte proliferation and differentiation. Our data should facilitate studies of both the pathogenesis and therapy of obesity in humans.

Published
2013
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20. Inflammatory mediator TAK1 regulates hair follicle morphogenesis and anagen induction shown by using keratinocyte-specific TAK1-deficient mice.

Author

Koji Sayama, Kentaro Kajiya, Koji Sugawara, Shintaro Sato, Satoshi Hirakawa, Yuji Shirakata, Yasushi Hanakawa, Xiuju Dai, Yumiko Ishimatsu-Tsuji, Daniel Metzger, Pierre Chambon, Shizuo Akira, Ralf Paus, Jiro Kishimoto, and Koji Hashimoto

Subjects
Medicine, Science
Abstract

Transforming growth factor-beta-activated kinase 1 (TAK1) is a member of the NF-kappaB pathway and regulates inflammatory responses. We previously showed that TAK1 also regulates keratinocyte growth, differentiation, and apoptosis. However, it is unknown whether TAK1 has any role in epithelial-mesenchymal interactions. To examine this possibility, we studied the role of TAK1 in mouse hair follicle development and cycling as an instructive model system. By comparing keratinocyte-specific TAK1-deficient mice (Map3k7(fl/fl)K5-Cre) with control mice, we found that the number of hair germs (hair follicles precursors) in Map3k7(fl/fl)K5-Cre mice was significantly reduced at E15.5, and that subsequent hair follicle morphogenesis was retarded. Next, we analyzed the role of TAK1 in the cyclic remodeling in follicles by analyzing hair cycle progression in mice with a tamoxifen-inducible keratinocyte-specific TAK1 deficiency (Map3k7(fl/fl)K14-Cre-ER(T2)). After active hair growth (anagen) was induced by depilation, TAK1 was deleted by topical tamoxifen application. This resulted in significantly retarded anagen development in TAK1-deficient mice. Deletion of TAK1 in hair follicles that were already in anagen induced premature, apoptosis-driven hair follicle regression, along with hair follicle damage. These studies provide the first evidence that the inflammatory mediator TAK1 regulates hair follicle induction and morphogenesis, and is required for anagen induction and anagen maintenance.

Published
2010
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21. Premature aging in skeletal muscle lacking serum response factor.

Author

Charlotte Lahoute, Athanassia Sotiropoulos, Marilyne Favier, Isabelle Guillet-Deniau, Claude Charvet, Arnaud Ferry, Gillian Butler-Browne, Daniel Metzger, David Tuil, and Dominique Daegelen

Subjects
Medicine, Science
Abstract

Aging is associated with a progressive loss of muscle mass, increased adiposity and fibrosis that leads to sarcopenia. At the molecular level, muscle aging is known to alter the expression of a variety of genes but very little is known about the molecular effectors involved. SRF (Serum Response Factor) is a crucial transcription factor for muscle-specific gene expression and for post-natal skeletal muscle growth. To assess its role in adult skeletal muscle physiology, we developed a post-mitotic myofiber-specific and tamoxifen-inducible SRF knockout model. Five months after SRF loss, no obvious muscle phenotype was observed suggesting that SRF is not crucial for myofiber maintenance. However, mutant mice progressively developed IIB myofiber-specific atrophy accompanied by a metabolic switch towards a more oxidative phenotype, muscular lipid accumulation, sarcomere disorganization and fibrosis. After injury, mutant muscles exhibited an altered regeneration process, showing smaller regenerated fibers and persistent fibrosis. All of these features are strongly reminiscent of abnormalities encountered in aging skeletal muscle. Interestingly, we also observed an important age associated decrease in SRF expression in mice and human muscles. Altogether, these results suggest that a naturally occurring SRF down-regulation precedes and contributes to the muscle aging process. Indeed, triggering SRF loss in the muscles of mutant mice results in an accelerated aging process.

Published
2008
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27. Supplemental Figure 2 from SOX4 Is Essential for Prostate Tumorigenesis Initiated by PTEN Ablation

Author

Carlos S. Moreno, W. David Martin, Demetri D. Spyropoulos, Daniel Metzger, Veronique Lefebvre, Soma Sannigrahi, W. Guy Wiles, Adeboye O. Osunkoya, and Birdal Bilir

Abstract

Supplemental Figure 2 Figure S2. Probasin-Cre mice (3) obtained from the NCI mouse repository were crossed to ROSA-lox-stop-lox-GFP mice (C57/BL6;129-ROSA26-Lox-Stop-Lox-EGFP (Charles River Laboratories)). Tissues were harvested from male mice after reaching sexual maturity at 8 weeks of age. GFP imaging of organs was performed on an Olympus OV-100 In Vivo Imaging System. Representative tissues from double transgenic mice are shown on the left, and from control mice on the right. Strong GFP signal was detected in pancreas and all three lobes of the prostate.

Published
2023

28. Supplementary Figures 1-3 from Oncogenesis Caused by Loss of the SNF5 Tumor Suppressor Is Dependent on Activity of BRG1, the ATPase of the SWI/SNF Chromatin Remodeling Complex

Author

Charles W.M. Roberts, Phuong T.L. Nguyen, Julia A. Evans, Daniel Metzger, Christopher S. Thom, Courtney G. Sansam, and Xi Wang

Abstract

Supplementary Figures 1-3 from Oncogenesis Caused by Loss of the SNF5 Tumor Suppressor Is Dependent on Activity of BRG1, the ATPase of the SWI/SNF Chromatin Remodeling Complex

Published
2023

32. Supplemental Figure 1 from SOX4 Is Essential for Prostate Tumorigenesis Initiated by PTEN Ablation

Author

Carlos S. Moreno, W. David Martin, Demetri D. Spyropoulos, Daniel Metzger, Veronique Lefebvre, Soma Sannigrahi, W. Guy Wiles, Adeboye O. Osunkoya, and Birdal Bilir

Abstract

Supplemental Figure 1 Figure S1. Breeding scheme for generation of prostate epithelium-specific Sox4 and Pten conditional double-knockout mice. Male PSA-CRE-ER/PTENfl/fl mice (1) were crossed with female Sox4fl/fl mice (2) and bred to homozygosity.

Published
2023

33. Data from SOX4 Is Essential for Prostate Tumorigenesis Initiated by PTEN Ablation

Author

Carlos S. Moreno, W. David Martin, Demetri D. Spyropoulos, Daniel Metzger, Veronique Lefebvre, Soma Sannigrahi, W. Guy Wiles, Adeboye O. Osunkoya, and Birdal Bilir

Abstract

Understanding remains incomplete of the mechanisms underlying initiation and progression of prostate cancer, the most commonly diagnosed cancer in American men. The transcription factor SOX4 is overexpressed in many human cancers, including prostate cancer, suggesting it may participate in prostate tumorigenesis. In this study, we investigated this possibility by genetically deleting Sox4 in a mouse model of prostate cancer initiated by loss of the tumor suppressor Pten. We found that specific homozygous deletion of Sox4 in the adult prostate epithelium strongly inhibited tumor progression initiated by homozygous loss of Pten. Mechanistically, Sox4 ablation reduced activation of AKT and β-catenin, leading to an attenuated invasive phenotype. Furthermore, SOX4 expression was induced by Pten loss as a result of the activation of PI3K–AKT–mTOR signaling, suggesting a positive feedback loop between SOX4 and PI3K–AKT–mTOR activity. Collectively, our findings establish that SOX4 is a critical component of the PTEN/PI3K/AKT pathway in prostate cancer, with potential implications for combination-targeted therapies against both primary and advanced prostate cancers. Cancer Res; 76(5); 1112–21. ©2015 AACR.

Published
2023

34. Data from Oncogenesis Caused by Loss of the SNF5 Tumor Suppressor Is Dependent on Activity of BRG1, the ATPase of the SWI/SNF Chromatin Remodeling Complex

Author

Charles W.M. Roberts, Phuong T.L. Nguyen, Julia A. Evans, Daniel Metzger, Christopher S. Thom, Courtney G. Sansam, and Xi Wang

Abstract

Alterations in chromatin play an important role in oncogenic transformation, although the underlying mechanisms are often poorly understood. The SWI/SNF complex contributes to epigenetic regulation by using the energy of ATP hydrolysis to remodel chromatin and thus regulate transcription of target genes. SNF5, a core subunit of the SWI/SNF complex, is a potent tumor suppressor that is specifically inactivated in several types of human cancer. However, the mechanism by which SNF5 mutation leads to cancer and the role of SNF5 within the SWI/SNF complex remain largely unknown. It has been hypothesized that oncogenesis in the absence of SNF5 occurs due to a loss of function of the SWI/SNF complex. Here, we show, however, distinct effects for inactivation of Snf5 and the ATPase subunit Brg1 in primary cells. Further, using both human cell lines and mouse models, we show that cancer formation in the absence of SNF5 does not result from SWI/SNF inactivation but rather that oncogenesis is dependent on continued presence of BRG1. Collectively, our results show that cancer formation in the absence of SNF5 is dependent on the activity of the residual BRG1-containing SWI/SNF complex. These findings suggest that, much like the concept of oncogene addiction, targeted inhibition of SWI/SNF ATPase activity may be an effective therapeutic approach for aggressive SNF5-deficient human tumors. [Cancer Res 2009;69(20):8094–101]

Published
2023

35. 'Since You’re So Rich, You Must Be Really Smart': Talent, Rent Sharing, and the Finance Wage Premium

Author

Michael J Böhm, Daniel Metzger, and Per Strömberg

Subjects
Economics and Econometrics
Abstract

Financial sector wages have increased extraordinarily over the last decades. We address two potential explanations for this increase: (1) rising demand for talent and (2) firms sharing rents with their employees. Matching administrative data of Swedish workers, which include unique measures of individual talent, with financial information on their employers, we find no evidence that talent in finance improved, neither on average nor at the top. The increase in relative finance wages is present across talent and education levels, which together can explain at most 20% of it. In contrast, rising financial sector profits that are shared with employees account for up to half of the relative wage increase. The limited labour supply response may partly be explained by the importance of early-career entry and social connections in finance. Our findings alleviate concerns about “brain drain” into finance but suggest that finance workers have captured rising rents over time.

Published
2022

36. Targeting the BAG-1 family of co-chaperones in lethal prostate cancer

Author

Antje Neeb, Ines Figueiredo, Denisa Bogdan, Laura Cato, Jutta Stober, Juan M. Jimenez-Vacas, Victor Gourain, Irene I. Lee, Rebecca Seeger, Claudia Muhle-Goll, Bora Gurel, Jonathan Welti, Daniel Nava Rodrigues, Jan Rekowski, Xintao Qiu, Yija Jiang, Patrizio Di Micco, Borja Mateos, Stasė Bielskutė, Ruth Riisnaes, Ana Ferreira, Susana Miranda, Mateus Crespo, Lorenzo Buroni, Jian Ning, Stefan Bräse, Nicole Jung, Simone Gräßle, Daniel Metzger, Amanda Swain, Xavier Salvatella, Stephen R. Plymate, Bissan Al-Lazikani, Henry Long, Wei Yuan, Myles Brown, Andrew C. B. Cato, Johann S. de Bono, and Adam Sharp

Abstract

Therapies that abrogate persistent androgen receptor (AR) signaling in castration resistant prostate cancer (CRPC) remain an unmet clinical need. The N-terminal domain (NTD) of the AR drives transcriptional activity in CRPC but is intrinsically disordered and remains a challenging therapeutic target. Therefore, inhibiting critical co-chaperones, such as BAG-1L, is an attractive alternative strategy. We performed druggability analyses demonstrating the BAG domain to be a challenging drug target. Thio-2, a tool compound, has been reported to bind the BAG domain of BAG-1L and inhibit BAG-1L-mediated AR transactivation. However, despite these data, the mechanism of action of Thio-2 is poorly understood and the BAG domain which is present in all BAG-1 isoforms has not been validated as a therapeutic target. Herein, we demonstrate growth inhibiting activity of Thio-2 in CRPC cell lines and patient derived models with decreased AR genomic binding and AR signaling independent of BAG-1 isoform function. Furthermore, genomic abrogation of BAG-1 isoforms did not recapitulate the described Thio-2 phenotype, and NMR studies suggest that Thio-2 may bind the AR NTD, uncovering a potential alternative mechanism of action, although in the context of low compound solubility. Furthermore, BAG-1 isoform knockout mice are viable and fertile, in contrast to previous studies, and when crossed with prostate cancer mouse models, BAG-1 deletion does not significantly impact prostate cancer development and growth. Overall, these data demonstrate that Thio-2 inhibits AR signaling and growth in CRPC independent of BAG-1 isoforms, and unlike previous studies of the activated AR, therapeutic targeting of the BAG domain requires further validation before being considered a therapeutic strategy for the treatment of CRPC.

Published
2022

37. Invention of MK-8262, a Cholesteryl Ester Transfer Protein (CETP) Inhibitor Backup to Anacetrapib with Best-in-Class Properties

Author

Robert O. Blaustein, Georgy Hartmann, Guiquan Liu, Dennis Leung, Beth Ann Murphy, Sriram Tyagarajan, Yingju Xu, Zhijian Lu, Jian Liu, Louis-Charles Campeau, Sheng-Ping Wang, Daniel Metzger, Joseph L. Duffy, Qinghao Chen, Josee Cote, Rupesh P. Amin, Debra Ondeyka, Jianming Bao, Wanying Sun, Yi-Heng Chen, Peter J. Sinclair, Concetta Lipardi, Feng Ye, Douglas G. Johns, Katipally Revathi Reddy, Petr Vachal, Kaushik Mitra, Gordon K. Wollenberg, Shao Pengcheng Patrick, Kake Zhao, and Lushi Tan

Subjects
Statin, medicine.drug_class, Coronary Disease, Pharmacology, Structure-Activity Relationship, chemistry.chemical_compound, Dogs, Anacetrapib, In vivo, Drug Discovery, Cholesterylester transfer protein, medicine, Animals, Humans, Rats, Wistar, Adverse effect, CETP inhibitor, Oxazolidinones, Molecular Structure, biology, Chemistry, Drug discovery, Anticholesteremic Agents, Macaca mulatta, Cholesterol Ester Transfer Proteins, Mice, Inbred C57BL, biology.protein, Molecular Medicine, lipids (amino acids, peptides, and proteins), Lipoprotein
Abstract

Cholesteryl ester transfer protein (CETP) represents one of the key regulators of the homeostasis of lipid particles, including high-density lipoprotein (HDL) and low-density lipoprotein (LDL) particles. Epidemiological evidence correlates increased HDL and decreased LDL to coronary heart disease (CHD) risk reduction. This relationship is consistent with a clinical outcomes trial of a CETP inhibitor (anacetrapib) combined with standard of care (statin), which led to a 9% additional risk reduction compared to standard of care alone. We discuss here the discovery of MK-8262, a CETP inhibitor with the potential for being the best-in-class molecule. Novel in vitro and in vivo paradigms were integrated to drug discovery to guide optimization informed by a critical understanding of key clinical adverse effect profiles. We present preclinical and clinical evidence of MK-8262 safety and efficacy by means of HDL increase and LDL reduction as biomarkers for reduced CHD risk.

Published
2021

38. Hypoxia-mediated stabilization of HIF1A in prostatic intraepithelial neoplasia promotes cell plasticity and malignant progression

Author

Mohamed A. Abu el Maaty, Julie Terzic, Céline Keime, Daniela Rovito, Régis Lutzing, Darya Yanushko, Maxime Parisotto, Elise Grelet, Izzie Jacques Namer, Véronique Lindner, Gilles Laverny, Daniel Metzger, Institut de Génétique et de Biologie Moléculaire et Cellulaire (IGBMC), Université de Strasbourg (UNISTRA)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Laboratoire des sciences de l'ingénieur, de l'informatique et de l'imagerie (ICube), École Nationale du Génie de l'Eau et de l'Environnement de Strasbourg (ENGEES)-Université de Strasbourg (UNISTRA)-Institut National des Sciences Appliquées - Strasbourg (INSA Strasbourg), Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Institut National de Recherche en Informatique et en Automatique (Inria)-Les Hôpitaux Universitaires de Strasbourg (HUS)-Centre National de la Recherche Scientifique (CNRS)-Matériaux et Nanosciences Grand-Est (MNGE), Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Réseau nanophotonique et optique, Université de Strasbourg (UNISTRA)-Université de Haute-Alsace (UHA) Mulhouse - Colmar (Université de Haute-Alsace (UHA))-Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS), Les Hôpitaux Universitaires de Strasbourg (HUS), metzger, daniel, ANR-10-INBS-0009,France-Génomique,Organisation et montée en puissance d'une Infrastructure Nationale de Génomique(2010), ANR-10-LABX-0030,INRT,Integrative Biology : Nuclear dynamics- Regenerative medicine - Translational medicine(2010), and ANR-10-IDEX-0002,UNISTRA,Par-delà les frontières, l'Université de Strasbourg(2010)

Subjects
Male, Prostatic Intraepithelial Neoplasia, Multidisciplinary, MESH: Humans, MESH: Prostatic Intraepithelial Neoplasia, [SDV]Life Sciences [q-bio], Cell Plasticity, Prostatic Neoplasms, MESH: Cell Plasticity, Hypoxia-Inducible Factor 1, alpha Subunit, MESH: Hypoxia-Inducible Factor 1, alpha Subunit, MESH: Male, [SDV] Life Sciences [q-bio], Mice, MESH: Hypoxia, MESH: Prostatic Neoplasms, Disease Progression, Animals, Humans, MESH: Animals, MESH: Disease Progression, Hypoxia, MESH: Mice
Abstract

Prostate cancer (PCa) is a leading cause of cancer-related deaths. The slow evolution of precancerous lesions to malignant tumors provides a broad time frame for preventing PCa. To characterize prostatic intraepithelial neoplasia (PIN) progression, we conducted longitudinal studies on Pten (i)pe−/− mice that recapitulate prostate carcinogenesis in humans. We found that early PINs are hypoxic and that hypoxia-inducible factor 1 alpha (HIF1A) signaling is activated in luminal cells, thus enhancing malignant progression. Luminal HIF1A dampens immune surveillance and drives luminal plasticity, leading to the emergence of cells that overexpress Transglutaminase 2 (TGM2) and have impaired androgen signaling. Elevated TGM2 levels in patients with PCa are associated with shortened progression-free survival after prostatectomy. Last, we show that pharmacologically inhibiting HIF1A impairs cell proliferation and induces apoptosis in PINs. Therefore, our study demonstrates that HIF1A is a target for PCa prevention and that TGM2 is a promising prognostic biomarker of early relapse after prostatectomy.

Published
2022

40. Abstract P5-02-54: Application of low-pass whole genome sequencing for the detection of Homologous Recombination Deficiency in breast cancer

Author

Gillian Belbin, Jie An, Chase Mazur, Joseph Pickrell, Jeremy Li, Daniel Metzger, Shuang Gao, Erik Van Roey, Robert Seager, Sarabjot Pabla, Durga Prasad Dash, and Jeffrey M. Conroy

Subjects
Cancer Research, Oncology
Abstract

Background: Homologous recombination deficiency (HRD), broadly defined as a loss of the cellular mechanism underlying homologous recombination, is often observed in breast cancer. HRD causes distinctive perturbations to tumor genomic architecture that allow for its molecular identification, while also rendering HRD+ cancers vulnerable to specific chemotherapeutic interventions. This makes the molecular identification of HRD a promising avenue in precision medicine of breast cancer. Specific features of HRD include the presence of large-scale transitions (LST), telomeric allelic imbalance (TAI) and Loss of Heterozygosity (LOH). Each are readily detectable via targeted next generation sequencing (tNGS) or via array-based genotyping. However, genome-wide approaches for HRD detection using cost-effective methods, such as low-pass sequencing (LP-WGS), remain relatively under-explored. Here, we investigated whether HRD signals can be successfully re-capitulated using LP-WGS technology and benchmarked our results against the current field standard (both tNGS and array genotyping). Methods: LP-WGS and tNGS was performed on 96 samples across a range of tumor types (including N=17 breast cancer samples). LP-WGS libraries were prepared using Nextera (Illumina) using 0.4ng DNA input, and sequenced to 0.5-1x coverage. tNGS libraries were prepared using TSO500 (Illumina) using 40-80ng input, and sequenced to >150x unique read coverage. Regions of CNV were estimated using CNVKit v0.9.6, and regions of LOH were estimated using a novel ancestry-aware method. Small variant detection was performed using the TSO500 v2.2.0.12 analysis pipeline. SNP array analysis of 12 tumor samples using Oncoscan (ThermoFisher) was also performed. CNV and LOH estimates derived from LP-WGS, TSO500 and SNP array data were calculated using Jaccard similarity, treating the SNP array data as the “ground truth”. Results: We benchmarked HRD signals derived from LP-WGS compared to the array-based calls and observed near perfect sensitivity for CNV gains across samples (Jaccard index=1.0), as well as for CNV losses between LP-WGS and SNP array (Jaccard index=1.0). We additionally noted that LPS-WGS calls captured both CNV loss and gains that were not detectable via the SNP array. For TAI, LP-WGS re-capitulated 7/10 unique signals also identified via array. We also observed high concordance between regions of the genome called LOH between both platforms (median Jaccard index=0.70, IQR=0.254), but noted an attenuation of sensitivity in samples where estimated tumor heterogeneity was high. We also evaluated LP-WGS CNV calls against the TSO500 assay and noted high sensitivity (96%; 94%) and specificity (89%; 91%) for both CNV gains and losses, respectively. Conclusions: Workflows incorporating LP-WGS can support the detection of HRD genome-wide, paving the way for a more affordable assay that may help to inform clinical decision making in the future treatment of breast cancer. Citation Format: Gillian Belbin, Jie An, Chase Mazur, Joseph Pickrell, Jeremy Li, Daniel Metzger, Shuang Gao, Erik Van Roey, Robert Seager, Sarabjot Pabla, Durga Prasad Dash, Jeffrey M. Conroy. Application of low-pass whole genome sequencing for the detection of Homologous Recombination Deficiency in breast cancer [abstract]. In: Proceedings of the 2022 San Antonio Breast Cancer Symposium; 2022 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2023;83(5 Suppl):Abstract nr P5-02-54.

Published
2023

41. Isolated diastolic high blood pressure: a distinct clinical phenotype in US children

Author

Habeeb Alsaeed, Atul Sharma, Daniel Metzger, Tom Blydt-Hansen, and Celia Rodd

Subjects
Male, medicine.medical_specialty, Adolescent, National Health and Nutrition Examination Survey, Population, Diastole, Overweight, Diastolic high blood pressure, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, 030225 pediatrics, Internal medicine, medicine, Humans, Child, education, education.field_of_study, business.industry, medicine.disease, Obesity, United States, Pathophysiology, Phenotype, Hypertension, Pediatrics, Perinatology and Child Health, Female, medicine.symptom, business, 030217 neurology & neurosurgery
Abstract

Screening studies have shown that 0.7-4.5% of generally healthy children have isolated diastolic high BP. We therefore studied the characteristics of children with diastolic BP in the elevated and hypertensive ranges according to current guidelines in US children from the National Health and Nutrition Examination Survey (NHANES, 1999-2016).We studied 17,362 children (8-18 years) with BP measured by sphygmomanometry. High BP was categorized as isolated systolic (iSH), isolated diastolic (iDH), or Mixed.Overall, 86.0% (95% CI = 85.0-87.0) of the population had normal BP, 8.7% (8.0-9.3) elevated BP, 4.9% (4.4-5.5) Stage 1, and 0.4% (0.4-0.6) Stage 2. Moreover, 11.1% (10.3-12.0) had iSH, 1.9% (1.5-2.2) iDH, and 1.0% (0.8-1.2) Mixed. Children with iDH were more likely to be female, younger, white, and leaner than those with iSH, with lower rates of overweight/obesity. iDH was generally between normals and iSH. Resting heart rate was significantly higher in iDH even after adjustment for known covariates.Children with iDH may have a distinct clinical picture. A leaner habitus and higher resting heart rate may reflect differences in underlying pathophysiology. Longitudinal follow-up studies are needed to better define the pathogenesis, progression, and long-term prognosis in iDH.Using gold-standard auscultation and 2017 guidelines, isolated diastolic high BP (iDH) is found in 1.9% (95% CI 1.5-2.2) of American children; these children are younger, leaner, more female, and have fewer cardiometabolic risks. Resting heart rate is significantly higher in iDH compared to both normals and iSH even after adjustments for known covariates. Autonomic hyperactivity in iDH may speak to both etiology and therapeutic approaches. iDH appears to be a distinct clinical phenotype characterized by differences in anthropometric measures, sex, age, and resting heart rate. Follow-up studies are clearly needed to clarify its pathogenesis, progression, and prognosis.

Published
2021

42. Mapping Lipogenic Flux: A Gold LDI–MS Approach for Imaging Neutral Lipid Kinetics

Author

Wendy Zhong, David G. McLaren, Daniel Metzger, Ji Zhang, Daniel P. Downes, Payal R. Sheth, Saswata Talukdar, Julie Lao, Guillermo Godinez, Santhosh Satapati, Stephen F. Previs, and Bingming Chen

Subjects
Male, Chromatography, Chemistry, 010401 analytical chemistry, Kinetics, food and beverages, Lipid metabolism, 010402 general chemistry, Lipids, 01 natural sciences, Mass Spectrometry, Mass spectrometry imaging, 0104 chemical sciences, Characterization (materials science), Mice, Inbred C57BL, Neutral lipid, Structural Biology, Desorption, Animals, Triglyceride metabolism, Gold, Flux (metabolism), Spectroscopy
Abstract

Spatial characterization of triglyceride metabolism is an area of significant interest which can be enabled by mass spectrometry imaging via recent advances in neutral lipid laser desorption analytical approaches. Here, we extend recent advancements in gold-assisted neutral lipid imaging and demonstrate the potential to map lipid flux in rodents. We address here critical issues surrounding the analytical configuration and interpretation of the data for a group of select triglycerides. Specifically, we examined how the signal intensity and spatial resolution would impact the apparent isotope ratio in a given analyte (which is an important consideration when performing MS based kinetics studies of this kind) with attention given to molecular ions and not fragments. We evaluated the analytics by contrasting lipid flux in well characterized mouse models, including fed vs fed states and different dietary perturbations. In total, the experimental paradigm described here should enable studies of hepatic lipogenesis; presumably, this logic can be enhanced via the inclusion of ion mobility and/or fragmentation. Although this study was carried out in robust models of liver lipogenesis, we expect that the model system could be expanded to a variety of tissues where zonated (or heterogeneous) lipid synthesis may occur, including solid tumor metabolism.

Published
2020

43. Data Science und AI

Author

Alexander Eser, Dorian Selz, Daniel Metzger, and Tom Becker

Published
2020

44. Are there alternatives to over-the-counter diabetes-care glucose-gels for transitional neonatal hypoglycemia?

Author

Eddie Kwan, Alfonso Solimano, Daniel Metzger, Rob Everett, and Horacio Osiovich

Subjects
Pediatrics, medicine.medical_specialty, Neonatal intensive care unit, business.industry, Neonatal hypoglycemia, Breastfeeding, Hypoglycemia, medicine.disease, Buccal mucosa, The Critical Lens, 03 medical and health sciences, 0302 clinical medicine, Intravenous glucose, 030225 pediatrics, Diabetes mellitus, Pediatrics, Perinatology and Child Health, Medicine, Over-the-counter, 030212 general & internal medicine, business
Abstract

Transitional neonatal hypoglycemia is common in at-risk well newborns, requires immediate attention, interferes with breastfeeding, and frequently results in separation of mothers from their babies. Breastfeeding shortly after birth and screening at-risk newborns at 2 hours of age is standard practice in Canada. In the Sugar Babies Trial, a custom-made 40% glucose-gel massaged to the buccal mucosa in at-risk infants decreased intravenous glucose treatment, but not neonatal intensive care unit admission. It increased the rate of full breastfeeding after discharge but experts suggest that additional evidence is needed. Further, commercially available neonatal glucose-gels do not exist, so practitioners around the world have started using diabetes-care products, which do not meet standards for use in newborns. Here, we provide a condensed summary of the topic and of management alternatives.

Published
2020

45. Is Age a Risk Factor for Cerebral Edema in Children With Diabetic Ketoacidosis? A Literature Review

Author

Daniel Metzger, Sinead Glackin, Jean-Pierre Chanoine, and Ragnar Hanas

Subjects
Pediatrics, medicine.medical_specialty, Younger age, endocrine system diseases, Diabetic ketoacidosis, Endocrinology, Diabetes and Metabolism, Brain Edema, 030209 endocrinology & metabolism, Diabetic Ketoacidosis, Cerebral edema, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Risk Factors, Internal Medicine, medicine, Humans, 030212 general & internal medicine, Risk factor, Child, Type 1 diabetes, business.industry, Age Factors, nutritional and metabolic diseases, General Medicine, Prognosis, medicine.disease, Complication, business
Abstract

Cerebral edema (CE) is a rare but potentially fatal complication of diabetic ketoacidosis (DKA) in children with type 1 diabetes. CE is frequently mentioned as being more common in young children. The primary objective of this study was to review the evidence suggesting that younger age is a risk factor for the development of CE during DKA. The secondary objective was to assess if younger children are at a higher risk of DKA and severe DKA. A literature review was performed, and studies which reported the frequency of CE, DKA and severe DKA in children3 and 3 to 5 years of age were included. Among the 6 studies reporting the frequency of CE that were identified, 5 good-quality studies found no significant association between younger age and higher risk of CE. Twenty-seven studies (DKA frequency: 11.3% to 54%) reported DKA frequency as a function of age. Most published studies found a higher frequency of DKA in children5 years of age (20/25 studies), and in particular in those in the first 2 to 3 years of life (8/8 studies). There was inconclusive evidence to determine whether the severity of DKA was influenced by age. In conclusion, the commonly held view that CE is more common in younger children is not supported by the existing literature. Published data suggest that DKA (and possibly severe DKA) is more common in very young children. Regardless of age, all children with DKA should be monitored carefully for the development of CE.

Published
2020

46. Reply

Author

Margaret Lawson, Daniel Metzger, and Greta Bauer

Subjects
Pediatrics, Perinatology and Child Health
Published
2022

47. Abstract TP234: Delayed Administration Of A Repurposed Drug With Sigma 1 Receptor Activity Improves Stroke Outcomes In Male Rats

Author

Derek Schreihofer, Dhwanil Dalwadi, Anthony Oppong-Gyebi, Daniel Metzger, and Seongcheol Kim

Subjects
Advanced and Specialized Nursing, Neurology (clinical), Cardiology and Cardiovascular Medicine
Abstract

Sigma-1 receptor ligands including agonists and antagonists have been shown to improve outcomes from experimental stroke when administered at delayed time points. However, clinical trials for one such agonist, cutamesine, failed to demonstrate benefit. In the present study, we sought to identify approved drugs that could be repurposed for Sigma-1 activity and the delayed treatment of stroke. High-throughput screening was used to identify Sigma-1 receptor selective binding and stimulation of brain-derived neurotrophic factor (BDNF) release for several potential ligands that are already approved for other indications. Two lead compounds, promethazine (an antihistamine) and oxeladin (a cough suppressant), were advance to in vivo studies. Both compounds displayed favorable oral absorption into the brain and high dose tolerance in rats. Neither compound significantly altered thrombosis in an in vitro blood coagulation assay. Daily oral administration of oxeladin (3 doses) or vehicle was started 48 hours after 90-minute transient middle cerebral artery occlusion in adult male Sprague-Dawley rats (n=12/group) and continued for 10 days in a treatment-blind manner. Rats receiving the two highest doses showed significant (P

Published
2022

49. Fuzzy real options and shared savings: Investment appraisal for green shipping technologies

Author

Orestis Schinas and Daniel Metzger

Subjects
050210 logistics & transportation, Water transport, Process (engineering), 020209 energy, 05 social sciences, Transportation, 02 engineering and technology, Environmental economics, Net present value, Fuzzy logic, Capital budgeting, Sustainable transport, Greenhouse gas, 0502 economics and business, 0202 electrical engineering, electronic engineering, information engineering, Relevance (information retrieval), Business, General Environmental Science, Civil and Structural Engineering
Abstract

Shipping finds itself at the beginning of a greening process that leads to the International Maritime Organization’s (IMO) objective of a 50% cut on the 2008 levels of greenhouse gas (GHG) emissions until 2050. Thus, the implementation of different emission abatement measures such as greening technologies is indispensable. Most research is focused on those abatement measures including policies, while partially neglecting financing issues. This article addresses this research gap by assessing the impact of financing concepts on the overall net present value (NPV) of a greening technology. Therefore, the latest green shipping research is reviewed, and the Fuzzy Pay-Off Method (FPOM) and the Center of Gravity-FPOM (CoG-FPOM) are applied. Numerical examples illustrate the relevance of financing concepts such as shared savings for the selection of abatement options. Further, they show the suitability and practical relevance of fuzzy real option methods for shipping purposes.

Published
2019

50. Dietary genistein and 17β-estradiol implants differentially influence locomotor and cognitive functions following transient focal ischemia in middle-aged ovariectomized rats at different lengths of estrogen deprivation

Author

Anthony Oppong-Gyebi, Daniel Metzger, Philip H. Vann, R. Andrew Yockey, Nathalie Sumien, and Derek A. Schreihofer

Subjects
Estradiol, Endocrine and Autonomic Systems, Ovariectomy, Estrogens, Genistein, Rats, Rats, Sprague-Dawley, Behavioral Neuroscience, Endocrinology, Cognition, Neuroprotective Agents, Ischemia, Animals, Humans, Female
Abstract

Genistein possesses estrogenic activity and has been considered a potential replacement for estrogen replacement therapy after menopause. In the current study, we investigated the neuroprotective effects of dietary genistein at varied lengths of estrogen deprivation in middle-aged ovariectomized Sprague-Dawley rats under ischemic conditions. Two weeks of treatment with dietary genistein at 42 mg/kg but not 17β-estradiol implants improved cognitive flexibility (Morris water maze test) after short-term estrogen deprivation (2 weeks) but not long-term estrogen deprivation (12 weeks). 17β-estradiol implants but not dietary genistein improved locomotor asymmetry (cylinder test) after long-term but not short-term estrogen deprivation. Dietary genistein but not 17β-estradiol implant improved early phase motor learning (rotarod test) after long-term estrogen deprivation. Neither 17β-estradiol implant nor dietary genistein reduced infarct size after either short-term or long-term estrogen deprivation. Genistein, however, reduced ionized calcium-binding adaptor molecule-1 (Iba1) expression, a marker of brain inflammation, at the ipsilateral side of stroke injury after short-term but not long-term estrogen deprivation. This study suggests that the neuroprotective effects of dietary genistein on motor and cognitive functions are distinctly influenced by the length of estrogen deprivation following focal ischemia. SIGNIFICANCE: There is an increasing postmenopausal population opting for homeopathic medicines for the management of menopausal symptoms due to the perceived distrust in estrogen use as hormone replacement. Basic and clinical studies support the notion that early, but not delayed, hormone replacement after menopause is beneficial. Furthermore, evidence suggests that delaying hormone replacement augments the detrimental, rather than the beneficial effects of estrogens. Because of the active consideration of soy isoflavones including genistein as alternatives to estrogen replacement, it is necessary to understand the ramifications of soy isoflavones use when their administration is begun at various times after menopause.

Published
2021

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